* A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems. It is available in MATLAB, Python, and Julia scripting languages, increasing the ability for customized optimization solutions.

to:

* A: Each modeling language possesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems. It is available in MATLAB, Python, and Julia scripting languages, increasing the ability for customized optimization solutions.

* Q: Who can I ask for a reference?* A: A number of %blue%A%red%P%black%Monitor industrial partners (%red%red%black%), clients (%blue%blue%black%), and university researchers (%yellow%yellow%black%) are available to provide a reference.

* A: The software is freely available through [[Main/PythonApp|Python]], [[Main/MATLAB|MATLAB]], or [[Main/JuliaOpt|Julia]] clients. These rely on a default public server by default. An APMonitor is also available as a [[Main/APMonitorServer|Windows Server]] or [[Main/APMonitorServerLinux|Linux Server]] if the application needs to run without an internet connection. The clients are converted over to the local server by modifying the server address.

to:

* A: The software is freely available through [[Main/PythonApp|Python]], [[Main/MATLAB|MATLAB]], or [[Main/JuliaOpt|Julia]] clients. Python installation is available from ''pip'' as

pip install APMonitor

The MATLAB, Python, and Julia packages rely on a default public server by default. An APMonitor is also available as a [[Main/APMonitorServer|Windows Server]] or [[Main/APMonitorServerLinux|Linux Server]] if the application needs to run without an internet connection. The clients are converted over to the local server by modifying the server address.

* A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems. It can be accessed from MATLAB or Python scripting languages, increasing the ability for customized optimization solutions.

to:

* A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems. It is available in MATLAB, Python, and Julia scripting languages, increasing the ability for customized optimization solutions.

* Q: Can I download a trial version of the software? * A: The software is available as a free web service through [[Main/PythonApp | Python]] or [[Main/MATLAB | MATLAB]]. These rely on a default public server. An APMonitor is also available as a [[Main/APMonitorServer|Windows Server]] or [[Main/APMonitorServerLinux|Linux Server]] if the application needs to run without an internet connection.

to:

* Q: Can I download the software? * A: The software is freely available through [[Main/PythonApp|Python]], [[Main/MATLAB|MATLAB]], or [[Main/JuliaOpt|Julia]] clients. These rely on a default public server by default. An APMonitor is also available as a [[Main/APMonitorServer|Windows Server]] or [[Main/APMonitorServerLinux|Linux Server]] if the application needs to run without an internet connection. The clients are converted over to the local server by modifying the server address.

# public server s = 'https://byu.apmonitor.com'

# local server s = 'https://localhost'

Changed line 55 from:

* A: The software is freely available through the [[https://apmonitor.com/online/view_pass.php|web-based interface]], as client applications (MATLAB, Python, Julia), or as a server application. The free public server option allows users to develop their solutions through a web-browser, MATLAB, Python, or Julia. For custom development needs, please contact customer support at support@apmonitor.com.

to:

* A: The software is freely available through the [[https://apmonitor.com/online/view_pass.php|web-based interface]], as client applications ([[Main/PythonApp|Python]], [[Main/MATLAB|MATLAB]], [[Main/JuliaOpt|Julia]]), or as a dedicated [[Main/APMonitorServer|server]]. The public server option allows users to develop their solutions through a web-browser, MATLAB, Python, or Julia. For custom development needs or applications, please contact customer support at support@apmonitor.com or post a message to the [[Main/UsersGroup|public discussion group]].

* A: There are many individuals who use the software through the web-interface from all parts of the world.

to:

* A: There are many individuals who use the software through from all parts of the world. It is used by businesses for industrial control systems and other commercial applications.

Changed lines 34-35 from:

* A: The software is available as a free web service through [[Main/PythonApp | Python]] or [[Main/MATLAB | MATLAB]].

to:

* A: The software is available as a free web service through [[Main/PythonApp | Python]] or [[Main/MATLAB | MATLAB]]. These rely on a default public server. An APMonitor is also available as a [[Main/APMonitorServer|Windows Server]] or [[Main/APMonitorServerLinux|Linux Server]] if the application needs to run without an internet connection.

Changed lines 39-40 from:

* A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit.

to:

* A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit. There is an [[Main/UsersGroup|active discussion group]] where you can search for posted applications.

Changed lines 44-45 from:

* A: Some benchmark models are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

to:

* A: Many [[Apps/Applications|benchmark models]] are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

Changed line 49 from:

* A: The software is freely available through the web-based interface. This allows users to develop their solutions through a web-browser, MATLAB, or Python without needing to download software. For dedicated or secure servers please contact customer support at support@apmonitor.com.

to:

* A: The software is freely available through the [[https://apmonitor.com/online/view_pass.php|web-based interface]], as client applications (MATLAB, Python, Julia), or as a server application. The free public server option allows users to develop their solutions through a web-browser, MATLAB, Python, or Julia. For custom development needs, please contact customer support at support@apmonitor.com.

%left% Advanced Process Solutions, LLC Houston office is the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

to:

%left% Advanced Process Solutions, LLC Houston office is the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

%left%* The Houston office is located on the the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

to:

%left% Advanced Process Solutions, LLC Houston office is the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

Attach:gulf_building.png* The Houston office is located on the the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

to:

%center%Attach:gulf_building.png%left%* The Houston office is located on the the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

[[Attach:gulf_building.png | The Houston office is located on the the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.]]

to:

[[Attach:gulf_building.png]]* The Houston office is located on the the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.

The office is the 32nd floor of the JPMorgan Chase Tower (formerly the Gulf Building).

to:

[[Attach:gulf_building.png | The Houston office is located on the the 32nd floor of the Gulf Building. The Gulf Building is now called the JPMorgan Chase building and is one of the preeminent Art Deco skyscrapers in the southern United States. It was completed in 1929 and remained the tallest building in Houston until 1963.]]

<!-- // The Following div element will end up holding the map search control. // You can place this anywhere on your page --> <div id="mapsearch"> <span style="color:#676767;font-size:11px;margin:10px;padding:4px;">Loading...</span> </div>

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* A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems.

to:

* A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems. It can be accessed from MATLAB or Python scripting languages, increasing the ability for customized optimization solutions.

Changed line 14 from:

* Q: Where can I find some documentation?

to:

* Q: Where can I find documentation for the software?

Changed line 34 from:

* A: The software is available through the web-based interface at: https://apmonitor.com/online/view_pass.php

to:

* A: The software is available as a free web service through [[Main/PythonApp | Python]] or [[Main/MATLAB | MATLAB]].

* A: The software is currently not for sale or licensing. It is freely available through the web-based interface.

to:

* A: The software is freely available through the web-based interface. This allows users to develop their solutions through a web-browser, MATLAB, or Python without needing to download software. For dedicated or secure servers please contact customer support at support@apmonitor.com.

* Q: Can I download a trial version of the software? * A: The software is available through the web-based interface at: https://apmonitor.com/online/view_pass.php

to:

* Q: Who is using the software?* A: There are many individuals who use the software through the web-interface from all parts of the world.

Attach:visitors.png

Changed lines 26-28 from:

* Q: Do you have a model for my specific application? * A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit.

to:

* Q: Who can I ask for a reference?* A: A number of %blue%A%red%P%black%Monitor industrial partners (%red%red%black%), clients (%blue%blue%black%), and university researchers (%yellow%yellow%black%) are available to provide a reference.

* Q: Do you have benchmarks against standard problem sets? * A: Some benchmark models are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

to:

* Q: Can I download a trial version of the software? * A: The software is available through the web-based interface at: https://apmonitor.com/online/view_pass.php

Changed lines 39-41 from:

* Q: How much does the software cost? * A: The software is currently not for sale or licensing. It is freely available through the web-based interface.

to:

* Q: Do you have a model for my specific application? * A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit.

Changed lines 44-47 from:

* Q: What do others say about the APMonitor software? * A: "It was easy to get an application on-line."* A: "Your modeling language seems to be very clear and intuitively usable. I like it very much."

to:

* Q: Do you have benchmarks against standard problem sets? * A: Some benchmark models are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

Changed lines 49-51 from:

* Q: Who is currently using the software?* A: Models have been submitted from a variety of industrial and academic institutions through the on-line interface.

to:

* Q: How much does the software cost? * A: The software is currently not for sale or licensing. It is freely available through the web-based interface.

Added lines 54-64:

* Q: What do others say about the APMonitor software? * A: "It was easy to get an application on-line."* A: "Your modeling language seems to be very clear and intuitively usable. I like it very much."

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* Q: Who is currently using the software?* A: Models have been submitted from a variety of industrial and academic institutions through the on-line interface.

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* Q: Who is using the software?* A: There are many individuals who use the software through the web-interface from all parts of the world.

Attach:visitors.png

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* Q: Who can I ask for a reference?* A: A number of %blue%A%red%P%black%Monitor industrial partners (%red%red%black%), clients (%blue%blue%black%), and university researchers (%yellow%yellow%black%) are available to provide a reference.

* A: A number of industrial partners (red), clients (blue), and university researchers (yellow) are available to provide a reference.

to:

* A: A number of %blue%A%red%P%black%Monitor industrial partners (%red%red%black%), clients (%blue%blue%black%), and university researchers (%yellow%yellow%black%) are available to provide a reference.

* Q: Who is using the software?* A: There are many individuals who use the software through the web-interface from all parts of the world.[[Attach:visitors.png]]

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* Q: Who can I ask for a reference?* A: A number of industrial partners (red), clients (blue), and university researchers (yellow) are available to provide a reference.(:html:)<img src=https://maps.google.com/maps/api/staticmap?center=Piacenza,Italy&zoom=1&size=530x350&sensor=false&maptype=satellite&markers=size:small|color:red|label:S|29.584215,-95.134633&markers=size:small|color:red|label:S|30.067421,-94.059898&markers=size:small|color:red|label:S|30.561078,-91.207466&markers=size:small|color:red|label:S|51.241071,4.333677&markers=size:small|color:red|label:S|51.104108,5.057091&markers=size:small|color:red|label:S|1.270877,103.69935&markers=size:small|color:blue|label:S|27.031553,49.590054&markers=size:small|color:yellow|label:S|30.290133,-97.735878&markers=size:small|color:yellow|label:S|43.075205,-89.423561&markers=size:small|color:blue|label:S|28.404689,-88.899994&markers=size:small|color:blue|label:S|42.358433,-71.059763>(:htmlend:)

<!-- // The Following div element will end up holding the map search control. // You can place this anywhere on your page --> <div id="mapsearch"> <span style="color:#676767;font-size:11px;margin:10px;padding:4px;">Loading...</span> </div>

<!-- Maps Api, Ajax Search Api and Stylesheet // Note: If you are already using the Maps API then do not include it again // If you are already using the AJAX Search API, then do not include it // or its stylesheet again // // The Key Embedded in the following script tags is designed to work with // the following site: // https://apmonitor.com/wiki --> <script src="https://maps.google.com/maps?file=api&v=2&key=ABQIAAAAoeUQqXCMNINHUNAX190uohQjaiEDAqgY5f-wCBQuE336iLb_shSTYt2W9KC3erniGJvIL0breIKpCw" type="text/javascript"></script> <script src="https://www.google.com/uds/api?file=uds.js&v=1.0&source=uds-msw&key=ABQIAAAAoeUQqXCMNINHUNAX190uohQjaiEDAqgY5f-wCBQuE336iLb_shSTYt2W9KC3erniGJvIL0breIKpCw" type="text/javascript"></script> <style type="text/css"> @import url("https://www.google.com/uds/css/gsearch.css"); </style>

Q: Why a new modeling language?A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems.

to:

* Q: Why a new modeling language?* A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems.

Changed lines 10-12 from:

Q: Where can I find some documentation? A: Documentation is available at: https://apmonitor.ath.cx/wiki

to:

* Q: Where can I find some documentation? * A: Documentation is available at: https://apmonitor.ath.cx/wiki

Changed lines 15-17 from:

Q: Can I download a trial version of the software? A: The software is available through the web-based interface at: https://apmonitor.ath.cx/sandbox

to:

* Q: Can I download a trial version of the software? * A: The software is available through the web-based interface at: https://apmonitor.ath.cx/sandbox

Changed lines 20-22 from:

Q: Do you have a model for my specific application? A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit.

to:

* Q: Do you have a model for my specific application? * A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit.

Changed lines 25-27 from:

Q: Do you have benchmarks against standard problem sets? A: Some benchmark models are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

to:

* Q: Do you have benchmarks against standard problem sets? * A: Some benchmark models are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

Changed lines 30-32 from:

Q: How much does the software cost? A: The software is currently not for sale or licensing. It is freely available through the web-based interface.

to:

* Q: How much does the software cost? * A: The software is currently not for sale or licensing. It is freely available through the web-based interface.

Changed lines 35-38 from:

Q: What do others say about the APMonitor software? A: "It was easy to get an application on-line."A: "Your modeling language seems to be very clear and intuitively usable. I like it very much."

to:

* Q: What do others say about the APMonitor software? * A: "It was easy to get an application on-line."* A: "Your modeling language seems to be very clear and intuitively usable. I like it very much."

Changed lines 41-42 from:

Q: Who is currently using the software?A: Models have been submitted from a variety of industrial and academic institutions through the on-line interface.

to:

* Q: Who is currently using the software?* A: Models have been submitted from a variety of industrial and academic institutions through the on-line interface.

Q: Why a new modeling language?A: Each modeling language posesses strengths and limitations. The APMonitor modeling language is built for the rapid construction and real-time deployment of differential and algebraic equation solutions. These models can be applied for optimization, dynamic parameter estimation, and control of live systems.

----

Q: Where can I find some documentation? A: Documentation is available at: https://apmonitor.ath.cx/wiki

----

Q: Can I download a trial version of the software? A: The software is available through the web-based interface at: https://apmonitor.ath.cx/sandbox

----

Q: Do you have a model for my specific application? A: Chances are that there is a good starting model somewhere on the internet. If you translate that model into APMonitor language, please consider submitting it to the benchmark set so that others may also benefit.

----

Q: Do you have benchmarks against standard problem sets? A: Some benchmark models are found in the documentation under the section Applications. These include a variety of models from chemical engineering, financial analysis, aerospace engineering, and bio-sciences.

----

Q: How much does the software cost? A: The software is currently not for sale or licensing. It is freely available through the web-based interface.

----

Q: What do others say about the APMonitor software? A: "It was easy to get an application on-line."A: "Your modeling language seems to be very clear and intuitively usable. I like it very much."

----

Q: Who is currently using the software?A: Models have been submitted from a variety of industrial and academic institutions through the on-line interface.